Another step towards virtually unlimited clean energy.

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STABILIZING NUCLEAR FUSION

Nuclear fission reactors have been within our grasp for 50 years now, but harnessing the power of the Sun through stable nuclear fusion has eluded us.

Stable nuclear fusion involves a plasma’s particle density, its confinement time, and its temperature, reaching a particular value (the “triply product”) that keeps the reaction going. The plasma must be extremely hot (more than 30 million degrees Celsius) and it needs to be stable under intense pressure while remaining in a fixed volume. Adjusting the plasma pressure is most of the challenge.

Now, thanks to scientists working on the Alcator C-Mod tokamak fusion reactor at MIT, we are a step closer to controlling it.

The team managed to set a world record for plasma pressure inside the reactor, reaching over 2 atmospheres of pressure for the first time with a temperature of over 35 million Celsius. The record was set on the Alcator C-Mod reactor’s final run, which is about to retire after 23 years of use.

Former deputy director of the Princeton Plasma Physics Laboratory, Dale Meade, says the achievement of the Alcator C-Mod program takes us a step closer to a working fusion reactor.

“The record plasma pressure validates the high-magnetic-field approach as an attractive path to practical fusion energy,” Meade said, according to MIT News.

The Alcator C-Mod — with an interior reminiscent of a corridor in the Millennium Falcon from “Star Wars” — is the only compact, high-magnetic-field fusion reactor sporting a tokamak (Russian for “toroidal chamber”). The tokamak holds the superheated plasma in a donut-shaped chamber.

CLEANER ENERGY

Nuclear fusion is a prime candidate for producing basically unlimited clean, safe, and carbon-free energy. Unlike nuclear fission reactors that generate radioactive waste, the nuclear energy from fusion is truly renewable and virtually pollution-free. How it can be applied to power generation is still a subject of investigation.